Wireless?A wireless LAN or WLAN is a wireless local
area network that uses radio waves as its carrier.
The last link with the users is wireless, to give a network connection to all users in a building or campus.
The backbone network usually uses cables
Wireless Network ComponentsAccess PointsNICs – Network Interface Cards
PCMCIAUSBPCICompactFlash
Other Wireless DevicesBridges and RoutersPrint Servers
PCs, Laptops, PDAs
Connecting To a Legacy Network Access Points connect the wireless network to the legacy network.
Common TopologiesComplete Wireless Networks
The physical size of the network is determined by the maximum reliable propagation range of the radio signals.
Referred to as ad hoc networks Are self-organizing networks without any centralized control Suited for temporary situations such as meetings and conferences.
Access Point Placement and PowerTypically – mounted at ceiling height.Between 15 and 25 feet (4.5m to 8m)The greater the height, the greater the difficulty to
get power to the unit. Solution: consider devices that can be powered using CAT5 Ethernet cable (CISCO Aironet 1200 Series).
Access points have internal or external antennas
Connecting to the Wired LANConsider user mobilityIf users move between subnets, there are
challenges to consider.OSes like Windows XP and 2000, Linux support
DHCP to obtain the new IP address for the subnet. Certain applications such as VPN will fail.
Solution: access points in a roaming area are on the same segment.
Standards
IEEE 802.11.b –2.4GHz – 11MbpsIEEE 802.11.a – 5GHz – 54 MbpsIEEE 802.11g – 2.4Ghz – Hybrid 11/54Mbps
802.11g is in the final stages of development. The current draft (V5.0) is open for comments until January 8, 2003.
Performance802.11a offers speeds with a theoretically
maximum rate of 54Mbps in the 5 GHz band802.11b offers speeds with a theoretically
maximum rate of 11Mbps at in the 2.4 GHz spectrum band
802.11g is a new standard for data rates of up to a theoretical maximum of 54 Mbps at 2.4 GHz.
What is 802.11?A family of wireless LAN (WLAN) specifications
developed by a working group at the Institute of Electrical and Electronic Engineers (IEEE)
Defines standard for WLANs using the following four technologiesFrequency Hopping Spread Spectrum (FHSS)Direct Sequence Spread Spectrum (DSSS)Infrared (IR)Orthogonal Frequency Division Multiplexing (OFDM)
Versions: 802.11a, 802.11b, 802.11g, 802.11e, 802.11f, 802.11i
802.11 - TransmissionMost wireless LAN products operate in unlicensed
radio bands2.4 GHz is most popularAvailable in most parts of the worldNo need for user licensing
Most wireless LANs use spread-spectrum radioResistant to interference, secureTwo popular methods
Frequency Hopping (FH) Direct Sequence (DS)
802.11g AdvantagesProvides higher speeds and higher capacity
requirements for applicationsWireless Public Access
Compatible with existing 802.11b standardLeverages Worldwide spectrum availability
in 2.4 GHzLikely to be less costly than 5 GHz alternativesProvides easy migration for current users of
802.11b WLANsDelivers backward support for existing 802.11b
productsProvides path to even higher speeds in the
future
Security (Encryption, Content Filtering, Privacy, etc.) EncryptionEncryption on the pubic network can be
used but would create administrative overhead. Encryption keys would have to be changed regularly and anyone using their own laptop would have to be given the key.
Encryption works best in a network that does not allow people to use their own laptops.
Encryption increases privacy, but can be thwarted, either by software, or by gaining access to a PC configured with wireless and writing down the key.
Security (Encryption, Content Filtering, Privacy, etc.) Viruses and Hacker
Wireless does not add any additional threat in the way of viruses.
Anyone, anywhere can attack a network that is connected to the Internet. Wireless does not increase that chance. Security measures such as firewalls, can reduce the risk.